On Wed, Nov 10 2021 at 1:26P -0500, Jane Chu <jane.chu@xxxxxxxxxx> wrote: > On 11/9/2021 1:02 PM, Dan Williams wrote: > > On Tue, Nov 9, 2021 at 11:59 AM Jane Chu <jane.chu@xxxxxxxxxx> wrote: > >> > >> On 11/9/2021 10:48 AM, Dan Williams wrote: > >>> On Mon, Nov 8, 2021 at 11:27 PM Christoph Hellwig <hch@xxxxxxxxxxxxx> wrote: > >>>> > >>>> On Fri, Nov 05, 2021 at 07:16:38PM -0600, Jane Chu wrote: > >>>>> static size_t pmem_copy_from_iter(struct dax_device *dax_dev, pgoff_t pgoff, > >>>>> void *addr, size_t bytes, struct iov_iter *i, int mode) > >>>>> { > >>>>> + phys_addr_t pmem_off; > >>>>> + size_t len, lead_off; > >>>>> + struct pmem_device *pmem = dax_get_private(dax_dev); > >>>>> + struct device *dev = pmem->bb.dev; > >>>>> + > >>>>> + if (unlikely(mode == DAX_OP_RECOVERY)) { > >>>>> + lead_off = (unsigned long)addr & ~PAGE_MASK; > >>>>> + len = PFN_PHYS(PFN_UP(lead_off + bytes)); > >>>>> + if (is_bad_pmem(&pmem->bb, PFN_PHYS(pgoff) / 512, len)) { > >>>>> + if (lead_off || !(PAGE_ALIGNED(bytes))) { > >>>>> + dev_warn(dev, "Found poison, but addr(%p) and/or bytes(%#lx) not page aligned\n", > >>>>> + addr, bytes); > >>>>> + return (size_t) -EIO; > >>>>> + } > >>>>> + pmem_off = PFN_PHYS(pgoff) + pmem->data_offset; > >>>>> + if (pmem_clear_poison(pmem, pmem_off, bytes) != > >>>>> + BLK_STS_OK) > >>>>> + return (size_t) -EIO; > >>>>> + } > >>>>> + } > >>>> > >>>> This is in the wrong spot. As seen in my WIP series individual drivers > >>>> really should not hook into copying to and from the iter, because it > >>>> really is just one way to write to a nvdimm. How would dm-writecache > >>>> clear the errors with this scheme? > >>>> > >>>> So IMHO going back to the separate recovery method as in your previous > >>>> patch really is the way to go. If/when the 64-bit store happens we > >>>> need to figure out a good way to clear the bad block list for that. > >>> > >>> I think we just make error management a first class citizen of a > >>> dax-device and stop abstracting it behind a driver callback. That way > >>> the driver that registers the dax-device can optionally register error > >>> management as well. Then fsdax path can do: > >>> > >>> rc = dax_direct_access(..., &kaddr, ...); > >>> if (unlikely(rc)) { > >>> kaddr = dax_mk_recovery(kaddr); > >> > >> Sorry, what does dax_mk_recovery(kaddr) do? > > > > I was thinking this just does the hackery to set a flag bit in the > > pointer, something like: > > > > return (void *) ((unsigned long) kaddr | DAX_RECOVERY) > > Okay, how about call it dax_prep_recovery()? > > > > >> > >>> dax_direct_access(..., &kaddr, ...); > >>> return dax_recovery_{read,write}(..., kaddr, ...); > >>> } > >>> return copy_{mc_to_iter,from_iter_flushcache}(...); > >>> > >>> Where, the recovery version of dax_direct_access() has the opportunity > >>> to change the page permissions / use an alias mapping for the access, > >> > >> again, sorry, what 'page permissions'? memory_failure_dev_pagemap() > >> changes the poisoned page mem_type from 'rw' to 'uc-' (should be NP?), > >> do you mean to reverse the change? > > > > Right, the result of the conversation with Boris is that > > memory_failure() should mark the page as NP in call cases, so > > dax_direct_access() needs to create a UC mapping and > > dax_recover_{read,write}() would sink that operation and either return > > the page to NP after the access completes, or convert it to WB if the > > operation cleared the error. > > Okay, will add a patch to fix set_mce_nospec(). > > How about moving set_memory_uc() and set_memory_np() down to > dax_recovery_read(), so that we don't split the set_memory_X calls > over different APIs, because we can't enforce what follows > dax_direct_access()? > > > > >>> dax_recovery_read() allows reading the good cachelines out of a > >>> poisoned page, and dax_recovery_write() coordinates error list > >>> management and returning a poison page to full write-back caching > >>> operation when no more poisoned cacheline are detected in the page. > >>> > >> > >> How about to introduce 3 dax_recover_ APIs: > >> dax_recover_direct_access(): similar to dax_direct_access except > >> it ignores error list and return the kaddr, and hence is also > >> optional, exported by device driver that has the ability to > >> detect error; > >> dax_recovery_read(): optional, supported by pmem driver only, > >> reads as much data as possible up to the poisoned page; > > > > It wouldn't be a property of the pmem driver, I expect it would be a > > flag on the dax device whether to attempt recovery or not. I.e. get > > away from this being a pmem callback and make this a native capability > > of a dax device. > > > >> dax_recovery_write(): optional, supported by pmem driver only, > >> first clear-poison, then write. > >> > >> Should we worry about the dm targets? > > > > The dm targets after Christoph's conversion should be able to do all > > the translation at direct access time and then dax_recovery_X can be > > done on the resulting already translated kaddr. > > I'm thinking about the mixed device dm where some provides > dax_recovery_X, others don't, in which case we don't allow > dax recovery because that causes confusion? or should we still > allow recovery for part of the mixed devices? I really don't like the all or nothing approach if it can be avoided. I would imagine that if recovery possible it best to support it even if the DM device happens to span a mix of devices with varying support for recovery. Thanks, Mike -- dm-devel mailing list dm-devel@xxxxxxxxxx https://listman.redhat.com/mailman/listinfo/dm-devel